Hadar Steinberg, Dillon R. Gardner, Young S. Lee, Pablo Jarillo-Herrero
Published 2010-12-13Version 1
Electronic transport experiments involving the topologically protected states found at the surface of Bi2Se3 and other topological insulators require fine control over carrier density, which is challenging with existing bulk-doped material. Here we report on electronic transport measurements on thin (<100 nm) Bi2Se3 devices and show that the density of the surface states can be modulated via the electric field effect by using a top-gate with a high-k dielectric insulator. The conductance dependence on geometry, gate voltage, and temperature all indicate that transport is governed by parallel surface and bulk contributions. Moreover, the conductance dependence on top-gate voltage is ambipolar, consistent with tuning between electrons and hole carriers at the surface.
Comments: This paper is a significantly revised version of http://arxiv.org/abs/1003.3137, including new title, and therefore submitted as a new arxiv paper
Journal: Nano Letters 2010 10 (12), 5032-5036
Ambipolar Electric Field Effect in Metallic Bi2Se3
Surface state transport in double-gated and magnetized topological insulators with hexagonal warping effects
Conversion of self-assembled monolayers into nanocrystalline graphene: Structure and electric transport
![QR code for arXiv:1012.2769 [cond-mat.mes-hall]](http://oss.arxitics.com/images/favicon.svg)